Hello,
I'm new to parallel programming and MPI. I've developed a simulator in C++
for which I would
like to decrease the running time by using a Beowulf cluster. I'm not
interested in optimizing
speed, I'm just looking for a quick and easy way to significantly improve
the speed over running
the program on a single machine.
Basically, I need to learn how to parallelize a C++ function. The following
functions in particular
take the longest to run in my simulator. The first implements LU
decomposition on a large matrix and
the second implements the backsubstitution method to solve matrix division.
void NR::ludcmp(Mat_IO_DP &a, Vec_O_INT &indx, DP &d)
{
const DP TINY=1.0e-20;
int i,imax,j,k;
DP big,dum,sum,temp;
int n=a.nrows();
Vec_DP vv(n);
d=1.0;
for (i=0;i<n;i++) {
big=0.0;
for (j=0;j<n;j++)
if ((temp=fabs(a[i][j])) > big) big=temp;
if (big == 0.0) nrerror("Singular matrix in routine ludcmp");
vv[i]=1.0/big;
}
for (j=0;j<n;j++) {
for (i=0;i<j;i++) {
sum=a[i][j];
for (k=0;k<i;k++) sum -= a[i][k]*a[k][j];
a[i][j]=sum;
}
big=0.0;
for (i=j;i<n;i++) {
sum=a[i][j];
for (k=0;k<j;k++) sum -= a[i][k]*a[k][j];
a[i][j]=sum;
if ((dum=vv[i]*fabs(sum)) >= big) {
big=dum;
imax=i;
}
}
if (j != imax) {
for (k=0;k<n;k++) {
dum=a[imax][k];
a[imax][k]=a[j][k];
a[j][k]=dum;
}
d = -d;
vv[imax]=vv[j];
}
indx[j]=imax;
if (a[j][j] == 0.0) a[j][j]=TINY;
if (j != n-1) {
dum=1.0/(a[j][j]);
for (i=j+1;i<n;i++) a[i][j] *= dum;
}
}
}
and...
void NR::lubksb(Mat_I_DP &a, Vec_I_INT &indx, Vec_IO_DP &b)
{
int i,ii=0,ip,j;
DP sum;
int n=a.nrows();
for (i=0;i<n;i++) {
ip=indx[i];
sum=b[ip];
b[ip]=b[i];
if (ii != 0)
for (j=ii-1;j<i;j++) sum -= a[i][j]*b[j];
else if (sum != 0.0)
ii=i+1;
b[i]=sum;
}
for (i=n-1;i>=0;i--) {
sum=b[i];
for (j=i+1;j<n;j++) sum -= a[i][j]*b[j];
b[i]=sum/a[i][i];
}
}
(The functions are borrowed from the library provided by "Numerical Recipes
in C++")
I'm currently calling these functions from the main loop with the lines:
NR::ludcmp(c,indx,d);
and
NR::lubksb(c,indx,xv);
where the variable 'c' is a large matrix (holding image pixel values) and
'xv' is a vector
used in backsubstitution.
All of the variables passed into these functions are of types defined in "
nr.h"
'c' is a Mat_DP (double-precision matrix)
'indx' is a Vec_INT (integer vector)
'd' is a DP (double precision)
'xv' is a Vec_DP (double precision vector)
Is there a simple way to call these functions which will cause the cluster
to distribute the
load of operations? Currently, when I run the program with a 50x50 array on
a single machine,
it takes about 5 minutes to process a single iteration through the matrix
division.
Any help would be greatly appreciated.
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